4.5 Article

Influence of cortisol awakening response on telomere length: Trends for males and females

Journal

EUROPEAN JOURNAL OF NEUROSCIENCE
Volume 55, Issue 9-10, Pages 2794-2803

Publisher

WILEY
DOI: 10.1111/ejn.14996

Keywords

cortisol; salivary telomere length; sex differences; stress

Categories

Funding

  1. Monash University Seed
  2. Barbara Dicker Brain Science Foundation

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This study used mathematical equation modelling to explore the relationship between diurnal cortisol levels and telomere length within the context of sex. Results showed significant sex differences, with males demonstrating a positive correlation and females a negative correlation between cortisol awakening responses and telomere length. This suggests that when investigating telomere length, factors such as sex and sex hormones need to be carefully considered.
Although telomere attrition is associated with the process of normal ageing, shorter telomere length (TL) has been associated with acute and chronic stressors. A neurobiological factor hypothesised to be responsible for this accelerated attrition is the dysregulation of the cortisol stress response, which can induce DNA damage affecting DNA telomeric caps. Marked sex differences are reported in both the cortisol stress response and telomere dynamics, yet no explicit investigation of sex specificity on the relationship between cortisol and TL exists. This study used mathematical equation modelling to describe the relationship between diurnal cortisol levels and telomere length within the context of sex, in a healthy population. Cortisol awakening responses (CAR) were measured via ELISA methodology in fifty-one healthy participants (28 males, 23 females). qPCRs determined TL from genomic DNA extracted from saliva. To assess the effect of free cortisol on relative TL ratio, a semi-log regression plot of the two variables trended for sex were fitted using spline curves. Results demonstrated significant differences between males and females in the relationship defining CAR and TL association (p = 0.03). These results suggest the relationship is not linear and can be represented as a complex arcsin function, and that the patterns are opposite in males and females. Males demonstrate a positive correlation, with higher levels of CAR being associated with longer telomere sequences. Females demonstrated a negative correlation. Future studies must carefully take into consideration moderating factors such as sex, and sex hormones across the lifespan when investigating telomere length.

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